A LP relaxation based matheuristic for multi-objective integer programming

Duleabom An; Sophie Parragh; Markus Sinnl; Fabien Tricoire

doi:10.5220/0010347000880098

A LP relaxation based matheuristic for multi-objective integer programming

Duleabom An, Sophie Parragh, Markus Sinnl, Fabien Tricoire

Institute of Production and Logistics Management

Research output: Chapter in Book/Report/Conference proceeding › Conference proceedings › peer-review

Abstract

Motivated by the success of matheuristics in the single-objective domain, we propose a very simple linear programming-based matheuristic for three-objective binary integer programming. To tackle the problem, we obtain lower bound sets by means of the vector linear programming solver Bensolve. Then, simple heuristic approaches, such as rounding and path relinking, are applied to this lower bound set to obtain high-quality approximations of the optimal set of trade-off solutions. The proposed algorithm is compared to a recently suggested algorithm which is, to the best of our knowledge, the only existing matheuristic method for three objective integer programming. Computational experiments show that our method produces a better approximation of the true Pareto front using significantly less time than the benchmark method on standard benchmark instances for the three-objective knapsack problem.

Original language	English
Title of host publication	ICORES
Editors	ICORES (10th International Conference on Operations Research and Enterprise Systems)
Pages	88-98
Number of pages	11
DOIs	https://doi.org/10.5220/0010347000880098
Publication status	Published - Feb 2021

Fields of science

101015 Operations research
101016 Optimisation
502 Economics
502028 Production management
502017 Logistics
502037 Location planning
502050 Business informatics

JKU Focus areas

Digital Transformation
Sustainable Development: Responsible Technologies and Management

Access to Document

10.5220/0010347000880098

MOMIP: Multi-Objective Mixed Integer Programming
An, D. (Researcher), Tricoire, F. (Researcher) & Parragh, S. (PI)
FWF
01.10.2018 → 30.09.2022
Project: Funded research › FWF - Austrian Science Fund

Cite this

@inproceedings{f357a6df543a49abb4a1fdd5fbfeb11e,

title = "A LP relaxation based matheuristic for multi-objective integer programming",

abstract = "Motivated by the success of matheuristics in the single-objective domain, we propose a very simple linear programming-based matheuristic for three-objective binary integer programming. To tackle the problem, we obtain lower bound sets by means of the vector linear programming solver Bensolve. Then, simple heuristic approaches, such as rounding and path relinking, are applied to this lower bound set to obtain high-quality approximations of the optimal set of trade-off solutions. The proposed algorithm is compared to a recently suggested algorithm which is, to the best of our knowledge, the only existing matheuristic method for three objective integer programming. Computational experiments show that our method produces a better approximation of the true Pareto front using significantly less time than the benchmark method on standard benchmark instances for the three-objective knapsack problem.",

author = "Duleabom An and Sophie Parragh and Markus Sinnl and Fabien Tricoire",

year = "2021",

month = feb,

doi = "10.5220/0010347000880098",

language = "English",

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booktitle = "ICORES",

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T1 - A LP relaxation based matheuristic for multi-objective integer programming

AU - An, Duleabom

AU - Parragh, Sophie

AU - Sinnl, Markus

AU - Tricoire, Fabien

PY - 2021/2

Y1 - 2021/2

N2 - Motivated by the success of matheuristics in the single-objective domain, we propose a very simple linear programming-based matheuristic for three-objective binary integer programming. To tackle the problem, we obtain lower bound sets by means of the vector linear programming solver Bensolve. Then, simple heuristic approaches, such as rounding and path relinking, are applied to this lower bound set to obtain high-quality approximations of the optimal set of trade-off solutions. The proposed algorithm is compared to a recently suggested algorithm which is, to the best of our knowledge, the only existing matheuristic method for three objective integer programming. Computational experiments show that our method produces a better approximation of the true Pareto front using significantly less time than the benchmark method on standard benchmark instances for the three-objective knapsack problem.

AB - Motivated by the success of matheuristics in the single-objective domain, we propose a very simple linear programming-based matheuristic for three-objective binary integer programming. To tackle the problem, we obtain lower bound sets by means of the vector linear programming solver Bensolve. Then, simple heuristic approaches, such as rounding and path relinking, are applied to this lower bound set to obtain high-quality approximations of the optimal set of trade-off solutions. The proposed algorithm is compared to a recently suggested algorithm which is, to the best of our knowledge, the only existing matheuristic method for three objective integer programming. Computational experiments show that our method produces a better approximation of the true Pareto front using significantly less time than the benchmark method on standard benchmark instances for the three-objective knapsack problem.

U2 - 10.5220/0010347000880098

DO - 10.5220/0010347000880098

M3 - Conference proceedings

SN - 978-989-758-485-5

SP - 88

EP - 98

BT - ICORES

A2 - ICORES (10th International Conference on Operations Research and Enterprise Systems), null

ER -

A LP relaxation based matheuristic for multi-objective integer programming

Abstract

Fields of science

JKU Focus areas

Access to Document

Projects

MOMIP: Multi-Objective Mixed Integer Programming

Cite this